mirror of
https://github.com/nanoy42/coope
synced 2024-11-16 08:23:12 +00:00
318 lines
14 KiB
Text
318 lines
14 KiB
Text
|
\NeedsTeXFormat{LaTeX2e}
|
||
|
\ProvidesPackage{sphinxmulticell}%
|
||
|
[2017/02/23 v1.6 better span rows and columns of a table (Sphinx team)]%
|
||
|
\DeclareOption*{\PackageWarning{sphinxmulticell}{Option `\CurrentOption' is unknown}}%
|
||
|
\ProcessOptions\relax
|
||
|
%
|
||
|
% --- MULTICOLUMN ---
|
||
|
% standard LaTeX's \multicolumn
|
||
|
% 1. does not allow verbatim contents,
|
||
|
% 2. interacts very poorly with tabulary.
|
||
|
%
|
||
|
% It is needed to write own macros for Sphinx: to allow code-blocks in merged
|
||
|
% cells rendered by tabular/longtable, and to allow multi-column cells with
|
||
|
% paragraphs to be taken into account sanely by tabulary algorithm for column
|
||
|
% widths.
|
||
|
%
|
||
|
% This requires quite a bit of hacking. First, in Sphinx, the multi-column
|
||
|
% contents will *always* be wrapped in a varwidth environment. The issue
|
||
|
% becomes to pass it the correct target width. We must trick tabulary into
|
||
|
% believing the multicolumn is simply separate columns, else tabulary does not
|
||
|
% incorporate the contents in its algorithm. But then we must clear the
|
||
|
% vertical rules...
|
||
|
%
|
||
|
% configuration of tabulary
|
||
|
\setlength{\tymin}{3\fontcharwd\font`0 }% minimal width of "squeezed" columns
|
||
|
\setlength{\tymax}{10000pt}% allow enough room for paragraphs to "compete"
|
||
|
% we need access to tabulary's final computed width. \@tempdima is too volatile
|
||
|
% to hope it has kept tabulary's value when \sphinxcolwidth needs it.
|
||
|
\newdimen\sphinx@TY@tablewidth
|
||
|
\def\tabulary{%
|
||
|
\def\TY@final{\sphinx@TY@tablewidth\@tempdima\tabular}%
|
||
|
\let\endTY@final\endtabular
|
||
|
\TY@tabular}%
|
||
|
% next hack is needed only if user has set latex_use_latex_multicolumn to True:
|
||
|
% it fixes tabulary's bug with \multicolumn defined "short" in first pass. (if
|
||
|
% upstream tabulary adds a \long, our extra one causes no harm)
|
||
|
\def\sphinx@tempa #1\def\multicolumn#2#3#4#5#6#7#8#9\sphinx@tempa
|
||
|
{\def\TY@tab{#1\long\def\multicolumn####1####2####3{\multispan####1\relax}#9}}%
|
||
|
\expandafter\sphinx@tempa\TY@tab\sphinx@tempa
|
||
|
%
|
||
|
% TN. 1: as \omit is never executed, Sphinx multicolumn does not need to worry
|
||
|
% like standard multicolumn about |l| vs l|. On the other hand it assumes
|
||
|
% columns are separated by a | ... (if not it will add extraneous
|
||
|
% \arrayrulewidth space for each column separation in its estimate of available
|
||
|
% width).
|
||
|
%
|
||
|
% TN. 1b: as Sphinx multicolumn uses neither \omit nor \span, it can not
|
||
|
% (easily) get rid of extra macros from >{...} or <{...} between columns. At
|
||
|
% least, it has been made compatible with colortbl's \columncolor.
|
||
|
%
|
||
|
% TN. 2: tabulary's second pass is handled like tabular/longtable's single
|
||
|
% pass, with the difference that we hacked \TY@final to set in
|
||
|
% \sphinx@TY@tablewidth the final target width as computed by tabulary. This is
|
||
|
% needed only to handle columns with a "horizontal" specifier: "p" type columns
|
||
|
% (inclusive of tabulary's LJRC) holds the target column width in the
|
||
|
% \linewidth dimension.
|
||
|
%
|
||
|
% TN. 3: use of \begin{sphinxmulticolumn}...\end{sphinxmulticolumn} mark-up
|
||
|
% would need some hacking around the fact that groups can not span across table
|
||
|
% cells (the code does inserts & tokens, see TN1b). It was decided to keep it
|
||
|
% simple with \sphinxstartmulticolumn...\sphinxstopmulticolumn.
|
||
|
%
|
||
|
% MEMO about nesting: if sphinxmulticolumn is encountered in a nested tabular
|
||
|
% inside a tabulary it will think to be at top level in the tabulary. But
|
||
|
% Sphinx generates no nested tables, and if some LaTeX macro uses internally a
|
||
|
% tabular this will not have a \sphinxstartmulticolumn within it!
|
||
|
%
|
||
|
\def\sphinxstartmulticolumn{%
|
||
|
\ifx\equation$% $ tabulary's first pass
|
||
|
\expandafter\sphinx@TYI@start@multicolumn
|
||
|
\else % either not tabulary or tabulary's second pass
|
||
|
\expandafter\sphinx@start@multicolumn
|
||
|
\fi
|
||
|
}%
|
||
|
\def\sphinxstopmulticolumn{%
|
||
|
\ifx\equation$% $ tabulary's first pass
|
||
|
\expandafter\sphinx@TYI@stop@multicolumn
|
||
|
\else % either not tabulary or tabulary's second pass
|
||
|
\ignorespaces
|
||
|
\fi
|
||
|
}%
|
||
|
\def\sphinx@TYI@start@multicolumn#1{%
|
||
|
% use \gdef always to avoid stack space build up
|
||
|
\gdef\sphinx@tempa{#1}\begingroup\setbox\z@\hbox\bgroup
|
||
|
}%
|
||
|
\def\sphinx@TYI@stop@multicolumn{\egroup % varwidth was used with \tymax
|
||
|
\xdef\sphinx@tempb{\the\dimexpr\wd\z@/\sphinx@tempa}% per column width
|
||
|
\endgroup
|
||
|
\expandafter\sphinx@TYI@multispan\expandafter{\sphinx@tempa}%
|
||
|
}%
|
||
|
\def\sphinx@TYI@multispan #1{%
|
||
|
\kern\sphinx@tempb\ignorespaces % the per column occupied width
|
||
|
\ifnum#1>\@ne % repeat, taking into account subtleties of TeX's & ...
|
||
|
\expandafter\sphinx@TYI@multispan@next\expandafter{\the\numexpr#1-\@ne\expandafter}%
|
||
|
\fi
|
||
|
}%
|
||
|
\def\sphinx@TYI@multispan@next{&\relax\sphinx@TYI@multispan}%
|
||
|
%
|
||
|
% Now the branch handling either the second pass of tabulary or the single pass
|
||
|
% of tabular/longtable. This is the delicate part where we gather the
|
||
|
% dimensions from the p columns either set-up by tabulary or by user p column
|
||
|
% or Sphinx \X, \Y columns. The difficulty is that to get the said width, the
|
||
|
% template must be inserted (other hacks would be horribly complicated except
|
||
|
% if we rewrote crucial parts of LaTeX's \@array !) and we can not do
|
||
|
% \omit\span like standard \multicolumn's easy approach. Thus we must cancel
|
||
|
% the \vrule separators. Also, perhaps the column specifier is of the l, c, r
|
||
|
% type, then we attempt an ad hoc rescue to give varwidth a reasonable target
|
||
|
% width.
|
||
|
\def\sphinx@start@multicolumn#1{%
|
||
|
\gdef\sphinx@multiwidth{0pt}\gdef\sphinx@tempa{#1}\sphinx@multispan{#1}%
|
||
|
}%
|
||
|
\def\sphinx@multispan #1{%
|
||
|
\ifnum#1=\@ne\expandafter\sphinx@multispan@end
|
||
|
\else\expandafter\sphinx@multispan@next
|
||
|
\fi {#1}%
|
||
|
}%
|
||
|
\def\sphinx@multispan@next #1{%
|
||
|
% trick to recognize L, C, R, J or p, m, b type columns
|
||
|
\ifdim\baselineskip>\z@
|
||
|
\gdef\sphinx@tempb{\linewidth}%
|
||
|
\else
|
||
|
% if in an l, r, c type column, try and hope for the best
|
||
|
\xdef\sphinx@tempb{\the\dimexpr(\ifx\TY@final\@undefined\linewidth\else
|
||
|
\sphinx@TY@tablewidth\fi-\arrayrulewidth)/\sphinx@tempa
|
||
|
-\tw@\tabcolsep-\arrayrulewidth\relax}%
|
||
|
\fi
|
||
|
\noindent\kern\sphinx@tempb\relax
|
||
|
\xdef\sphinx@multiwidth
|
||
|
{\the\dimexpr\sphinx@multiwidth+\sphinx@tempb+\tw@\tabcolsep+\arrayrulewidth}%
|
||
|
% hack the \vline and the colortbl macros
|
||
|
\sphinx@hack@vline\sphinx@hack@CT&\relax
|
||
|
% repeat
|
||
|
\expandafter\sphinx@multispan\expandafter{\the\numexpr#1-\@ne}%
|
||
|
}%
|
||
|
% packages like colortbl add group levels, we need to "climb back up" to be
|
||
|
% able to hack the \vline and also the colortbl inserted tokens. This creates
|
||
|
% empty space whether or not the columns were | separated:
|
||
|
\def\sphinx@hack@vline{\ifnum\currentgrouptype=6\relax
|
||
|
\kern\arrayrulewidth\arrayrulewidth\z@\else\aftergroup\sphinx@hack@vline\fi}%
|
||
|
\def\sphinx@hack@CT{\ifnum\currentgrouptype=6\relax
|
||
|
\let\CT@setup\sphinx@CT@setup\else\aftergroup\sphinx@hack@CT\fi}%
|
||
|
% It turns out \CT@row@color is not expanded contrarily to \CT@column@color
|
||
|
% during LaTeX+colortbl preamble preparation, hence it would be possible for
|
||
|
% \sphinx@CT@setup to discard only the column color and choose to obey or not
|
||
|
% row color and cell color. It would even be possible to propagate cell color
|
||
|
% to row color for the duration of the Sphinx multicolumn... the (provisional?)
|
||
|
% choice has been made to cancel the colortbl colours for the multicolumn
|
||
|
% duration.
|
||
|
\def\sphinx@CT@setup #1\endgroup{\endgroup}% hack to remove colour commands
|
||
|
\def\sphinx@multispan@end#1{%
|
||
|
% first, trace back our steps horizontally
|
||
|
\noindent\kern-\dimexpr\sphinx@multiwidth\relax
|
||
|
% and now we set the final computed width for the varwidth environment
|
||
|
\ifdim\baselineskip>\z@
|
||
|
\xdef\sphinx@multiwidth{\the\dimexpr\sphinx@multiwidth+\linewidth}%
|
||
|
\else
|
||
|
\xdef\sphinx@multiwidth{\the\dimexpr\sphinx@multiwidth+
|
||
|
(\ifx\TY@final\@undefined\linewidth\else
|
||
|
\sphinx@TY@tablewidth\fi-\arrayrulewidth)/\sphinx@tempa
|
||
|
-\tw@\tabcolsep-\arrayrulewidth\relax}%
|
||
|
\fi
|
||
|
% we need to remove colour set-up also for last cell of the multi-column
|
||
|
\aftergroup\sphinx@hack@CT
|
||
|
}%
|
||
|
\newcommand*\sphinxcolwidth[2]{%
|
||
|
% this dimension will always be used for varwidth, and serves as maximum
|
||
|
% width when cells are merged either via multirow or multicolumn or both,
|
||
|
% as always their contents is wrapped in varwidth environment.
|
||
|
\ifnum#1>\@ne % multi-column (and possibly also multi-row)
|
||
|
% we wrote our own multicolumn code especially to handle that (and allow
|
||
|
% verbatim contents)
|
||
|
\ifx\equation$%$
|
||
|
\tymax % first pass of tabulary (cf MEMO above regarding nesting)
|
||
|
\else % the \@gobble thing is for compatibility with standard \multicolumn
|
||
|
\sphinx@multiwidth\@gobble{#1/#2}%
|
||
|
\fi
|
||
|
\else % single column multirow
|
||
|
\ifx\TY@final\@undefined % not a tabulary.
|
||
|
\ifdim\baselineskip>\z@
|
||
|
% in a p{..} type column, \linewidth is the target box width
|
||
|
\linewidth
|
||
|
\else
|
||
|
% l, c, r columns. Do our best.
|
||
|
\dimexpr(\linewidth-\arrayrulewidth)/#2-
|
||
|
\tw@\tabcolsep-\arrayrulewidth\relax
|
||
|
\fi
|
||
|
\else % in tabulary
|
||
|
\ifx\equation$%$% first pass
|
||
|
\tymax % it is set to a big value so that paragraphs can express themselves
|
||
|
\else
|
||
|
% second pass.
|
||
|
\ifdim\baselineskip>\z@
|
||
|
\linewidth % in a L, R, C, J column or a p, \X, \Y ...
|
||
|
\else
|
||
|
% we have hacked \TY@final to put in \sphinx@TY@tablewidth the table width
|
||
|
\dimexpr(\sphinx@TY@tablewidth-\arrayrulewidth)/#2-
|
||
|
\tw@\tabcolsep-\arrayrulewidth\relax
|
||
|
\fi
|
||
|
\fi
|
||
|
\fi
|
||
|
\fi
|
||
|
}%
|
||
|
% fallback default in case user has set latex_use_latex_multicolumn to True:
|
||
|
% \sphinxcolwidth will use this only inside LaTeX's standard \multicolumn
|
||
|
\def\sphinx@multiwidth #1#2{\dimexpr % #1 to gobble the \@gobble (!)
|
||
|
(\ifx\TY@final\@undefined\linewidth\else\sphinx@TY@tablewidth\fi
|
||
|
-\arrayrulewidth)*#2-\tw@\tabcolsep-\arrayrulewidth\relax}%
|
||
|
%
|
||
|
% --- MULTIROW ---
|
||
|
% standard \multirow
|
||
|
% 1. does not allow verbatim contents,
|
||
|
% 2. does not allow blank lines in its argument,
|
||
|
% 3. its * specifier means to typeset "horizontally" which is very
|
||
|
% bad for paragraph content. 2016 version has = specifier but it
|
||
|
% must be used with p type columns only, else results are bad,
|
||
|
% 4. it requires manual intervention if the contents is too long to fit
|
||
|
% in the asked-for number of rows.
|
||
|
% 5. colour panels (either from \rowcolor or \columncolor) will hide
|
||
|
% the bottom part of multirow text, hence manual tuning is needed
|
||
|
% to put the multirow insertion at the _bottom_.
|
||
|
%
|
||
|
% The Sphinx solution consists in always having contents wrapped
|
||
|
% in a varwidth environment so that it makes sense to estimate how many
|
||
|
% lines it will occupy, and then ensure by insertion of suitable struts
|
||
|
% that the table rows have the needed height. The needed mark-up is done
|
||
|
% by LaTeX writer, which has its own id for the merged cells.
|
||
|
%
|
||
|
% The colour issue is solved by clearing colour panels in all cells,
|
||
|
% whether or not the multirow is single-column or multi-column.
|
||
|
%
|
||
|
% In passing we obtain baseline alignements across rows (only if
|
||
|
% \arraylinestretch is 1, as LaTeX's does not obey \arraylinestretch in "p"
|
||
|
% multi-line contents, only first and last line...)
|
||
|
%
|
||
|
% TODO: examine the situation with \arraylinestretch > 1. The \extrarowheight
|
||
|
% is hopeless for multirow anyhow, it makes baseline alignment strictly
|
||
|
% impossible.
|
||
|
\newcommand\sphinxmultirow[2]{\begingroup
|
||
|
% #1 = nb of spanned rows, #2 = Sphinx id of "cell", #3 = contents
|
||
|
% but let's fetch #3 in a way allowing verbatim contents !
|
||
|
\def\sphinx@nbofrows{#1}\def\sphinx@cellid{#2}%
|
||
|
\afterassignment\sphinx@multirow\let\next=
|
||
|
}%
|
||
|
\def\sphinx@multirow {%
|
||
|
\setbox\z@\hbox\bgroup\aftergroup\sphinx@@multirow\strut
|
||
|
}%
|
||
|
\def\sphinx@@multirow {%
|
||
|
% The contents, which is a varwidth environment, has been captured in
|
||
|
% \box0 (a \hbox).
|
||
|
% We have with \sphinx@cellid an assigned unique id. The goal is to give
|
||
|
% about the same height to all the involved rows.
|
||
|
% For this Sphinx will insert a \sphinxtablestrut{cell_id} mark-up
|
||
|
% in LaTeX file and the expansion of the latter will do the suitable thing.
|
||
|
\dimen@\dp\z@
|
||
|
\dimen\tw@\ht\@arstrutbox
|
||
|
\advance\dimen@\dimen\tw@
|
||
|
\advance\dimen\tw@\dp\@arstrutbox
|
||
|
\count@=\dimen@ % type conversion dim -> int
|
||
|
\count\tw@=\dimen\tw@
|
||
|
\divide\count@\count\tw@ % TeX division truncates
|
||
|
\advance\dimen@-\count@\dimen\tw@
|
||
|
% 1300sp is about 0.02pt. For comparison a rule default width is 0.4pt.
|
||
|
% (note that if \count@ holds 0, surely \dimen@>1300sp)
|
||
|
\ifdim\dimen@>1300sp \advance\count@\@ne \fi
|
||
|
% now \count@ holds the count L of needed "lines"
|
||
|
% and \sphinx@nbofrows holds the number N of rows
|
||
|
% we have L >= 1 and N >= 1
|
||
|
% if L is a multiple of N, ... clear what to do !
|
||
|
% else write L = qN + r, 1 <= r < N and we will
|
||
|
% arrange for each row to have enough space for:
|
||
|
% q+1 "lines" in each of the first r rows
|
||
|
% q "lines" in each of the (N-r) bottom rows
|
||
|
% for a total of (q+1) * r + q * (N-r) = q * N + r = L
|
||
|
% It is possible that q == 0.
|
||
|
\count\tw@\count@
|
||
|
% the TeX division truncates
|
||
|
\divide\count\tw@\sphinx@nbofrows\relax
|
||
|
\count4\count\tw@ % q
|
||
|
\multiply\count\tw@\sphinx@nbofrows\relax
|
||
|
\advance\count@-\count\tw@ % r
|
||
|
\expandafter\xdef\csname sphinx@tablestrut_\sphinx@cellid\endcsname
|
||
|
{\noexpand\sphinx@tablestrut{\the\count4}{\the\count@}{\sphinx@cellid}}%
|
||
|
\dp\z@\z@
|
||
|
% this will use the real height if it is >\ht\@arstrutbox
|
||
|
\sphinxtablestrut{\sphinx@cellid}\box\z@
|
||
|
\endgroup % group was opened in \sphinxmultirow
|
||
|
}%
|
||
|
\newcommand*\sphinxtablestrut[1]{%
|
||
|
% #1 is a "cell_id", i.e. the id of a merged group of table cells
|
||
|
\csname sphinx@tablestrut_#1\endcsname
|
||
|
}%
|
||
|
% LaTeX typesets the table row by row, hence each execution can do
|
||
|
% an update for the next row.
|
||
|
\newcommand*\sphinx@tablestrut[3]{\begingroup
|
||
|
% #1 = q, #2 = (initially) r, #3 = cell_id, q+1 lines in first r rows
|
||
|
% if #2 = 0, create space for max(q,1) table lines
|
||
|
% if #2 > 0, create space for q+1 lines and decrement #2
|
||
|
\leavevmode
|
||
|
\count@#1\relax
|
||
|
\ifnum#2=\z@
|
||
|
\ifnum\count@=\z@\count@\@ne\fi
|
||
|
\else
|
||
|
% next row will be with a #2 decremented by one
|
||
|
\expandafter\xdef\csname sphinx@tablestrut_#3\endcsname
|
||
|
{\noexpand\sphinx@tablestrut{#1}{\the\numexpr#2-\@ne}{#3}}%
|
||
|
\advance\count@\@ne
|
||
|
\fi
|
||
|
\vrule\@height\ht\@arstrutbox
|
||
|
\@depth\dimexpr\count@\ht\@arstrutbox+\count@\dp\@arstrutbox-\ht\@arstrutbox\relax
|
||
|
\@width\z@
|
||
|
\endgroup
|
||
|
% we need this to avoid colour panels hiding bottom parts of multirow text
|
||
|
\sphinx@hack@CT
|
||
|
}%
|
||
|
\endinput
|
||
|
%%
|
||
|
%% End of file `sphinxmulticell.sty'.
|